A direct sensitivity approach to predict hourly ozone resulting from compliance with the National Ambient Air Quality Standard.

@article{Simon2013ADS,
  title={A direct sensitivity approach to predict hourly ozone resulting from compliance with the National Ambient Air Quality Standard.},
  author={Heather Simon and Kirk R Baker and Farhan H Akhtar and S. L. Napelenok and N. C. Possiel and Benjamin Wells and Brian Timin},
  journal={Environmental science & technology},
  year={2013},
  volume={47 5},
  pages={
          2304-13
        }
}
In setting primary ambient air quality standards, the EPA's responsibility under the law is to establish standards that protect public health. As part of the current review of the ozone National Ambient Air Quality Standard (NAAQS), the US EPA evaluated the health exposure and risks associated with ambient ozone pollution using a statistical approach to adjust recent air quality to simulate just meeting the current standard level, without specifying emission control strategies. One drawback of… CONTINUE READING
BETA
Tweets
This paper has been referenced on Twitter 1 time. VIEW TWEETS

From This Paper

Figures, tables, and topics from this paper.

Citations

Publications citing this paper.
SHOWING 1-8 OF 8 CITATIONS

References

Publications referenced by this paper.
SHOWING 1-10 OF 34 REFERENCES

Decoupled Method (HDDM); memo to EPA Docket # EPA-HQ-OAR2008−0669: Research Triangle

  • D. Byun, K. L. Schere
  • 2012

Using CAMx / HDDM to estimate ozone levels across the US at various levels of anthropogenic NOx and VOC

  • C. Emery, G. Yarwood, J. Jung
  • Community Modeling and Analysis System Annual…
  • 2012

estimate ozone levels across the US at various levels of anthropogenic NOx and VOC

  • H. Simon, K. Baker, +4 authors B. Wells
  • In Community Modeling and Analysis System Annual…
  • 2012

USEPA Emissions Modeling for the Final Mercury and Air Toxics Standards Technical Support Document; United States Environmental Protection Agency: Research Triangle

  • M. L. Bell, R. D. Peng, F. Dominici
  • 2011

Similar Papers

Loading similar papers…